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Transcript
Circulatory System Explain the structure of the heart 8.01 Analyze the function of the heart 8.02 Analyze the circulation of the blood. 8.03 Functions of the heart Pump to circulate blood to all parts of the body. Blood transport system around body Carries O2 and nutrients to cells, carries away waste products. Lymph system – returns excess tissue fluid to general circulation Components of the Circulatory System Heart Arteries Veins Capillaries Blood and lymph are part of circulatory system Major Blood Circuits General (systemic) circulation Cardiopulmonary circulation The Heart Muscular organ Size of a closed fist Weighs 12-13 oz Location – thoracic cavity Apex – conical tip, lies on diaphragm, points left Stethoscope instrument used to hear the heartbeat Heart sound is lub dub. The Heart Hollow, muscular, double pump that circulates blood. At rest = 2 oz. blood with each beat, 5 qts./min., 75 gallons/hour. Average= 72 beats per minute. 100,000 beats/day The Heart cont. Pericardium double layer of fibrous tissue that surrounds the heart Myocardium cardiac muscle tissue Endocardium smooth inner lining of heart Septum partition (wall) that separates right half from left half. The Heart cont. Superior vena cava and inferior vena cava bring deoxygenated blood to the right atrium Pulmonary artery takes blood away from the right ventricle to the lungs for O2 . Pulmonary veins bring oxygenated blood from the lungs to left atrium Aorta takes blood away from left ventricle to rest of body. Chambers and Valves Septum divides into right and left halves Upper chambers Right atrium and Left atrium Lower chambers right ventricle and left ventricle, the left ventricle wall is 3x as thick as the right ventricle wall and forms the apex of the heart. Four heart valves permit flow of blood in one direction Valves Tricuspid valve between right atrium and right ventricle Bicuspid (mitral) valve between left atrium and left ventricle Semilunar valves are located where blood leaves the heart Pulmonary semilunar valve and Aortic semilunar valve. Blood and oxygen supply to the heart is from the coronary arteries. Physiology of the Heart the heart is a double pump. When the heart beats….. Right Heart Deoxygenated blood flows into heart from vena cavart. atriumtricuspid valve rt. ventricle pulmonary semilunar valve pulmonary artery lungs (for O2 ) Left Heart Oxygenated blood flows from lungs via pulmonary veins lt. atrium mitral valve left ventricle aortic semilunar valve aorta general circulation (to deliver O2 ) Control of Heart Contractions SA (sinoatrial) node is the pacemaker of the heart. Located in the right atrium of the heart. SA node sends out electrical impulse Impulse spreads over the atria, making them contract The impulse then travels to the AV node AV (atrioventricular) Node Conducting cell group between atria and ventricle Carries impulse to bundle of His Bundle of His Conducting fibers in the septum Divides into R and L branches to network of branches in ventricles (Purkinje fibers) Purkinje Fibers Impulse shoots along Purkinje fibers causing the ventricles to contract. Electrocardiogram (EKG or ECG) Device used to record the electrical activity of the heart Systole=contraction phase Diastole= relaxation phase P=atrial contraction QRS=ventricular contraction T=ventricular relaxation Holter monitor=24hr. EKG Interpretation of EKG P wave=enlarged atrium or stenosed AV valve. Q wave= Myocardial infarction R wave= Enlarged ventricles T wave = K+ level too high Circulation and Blood Vessels Cardiopulmonary Circulation Systemic Arterioles Venules Circulation Heart and lungs From the Smallest heart to arteries the tissues and cells, then back to the heart Smallest veins Systemic Circulation Aorta largest artery in the body First branch is coronary artery Aortic arch Many arteries branch off the descending aorta Arteries Carry oxygenated blood away from the heart to the capillaries Elastic, muscular and thick-walled Transport blood under very high pressure. Capillaries Smallest blood vessels, can only be seen with a microscope Connect arterioles with venules Walls are one-cell thick and extremely thinallow for selective permeability of nutrients, oxygen, CO2 and metabolic wastes Veins Carry deoxygenated blood away from capillaries to the heart Veins contain a muscular layer, but less elastic and muscular than arteries Thin walled veins collapse easily when not filled with blood Valves permit flow of blood only in direction of the heart Jugular vein- located in the neck Blood Pressure- is the surge of blood when the heart pumps creating pressure against the walls of the arteries. Systolic Pressure Diastolic Pressure Measured during the contraction phase Measured when the ventricles are relaxed Normal average Normal average systolic pressure= 120 diastolic pressure =80 Pulse alternating expansion and contraction of an artery as blood flows through it. 1. 2. 3. 4. 5. 6. 7. 8. 9. Pulse sites Temporal External maxillary Carotid Brachial Radial Femoral Popliteal Posterior Tibial Pedal